32P-postlabelling detection of aromatic DNA adducts in peripheral blood lymphocytes from aluminium production plant workers

Aluminium production plant workers are exposed to a great number of airborne polycyclic aromatic hydrocarbons and epidemiological studies suggest that these workers are at increased risk of lung and bladder cancer. Blood samples from 46 workers at 2 primary aluminium plants and from 29 occupationally unexposed control individuals were analysed. DNA was isolated from the peripheral blood lymphocytes and aromatic DNA adducts were detected by 32P-postlabelling assay using the nuclease P1 digestion procedure for the enrichment of the adducts. The total levels of DNA adducts of exposed individuals varied from the detection limit of about 0.5 adducts/10(8) nucleotides up to 7.1 adducts/10(8) nucleotides and control adduct levels were up to 2.42 adducts/10(8) nucleotides. There was no significant difference between the mean adduct levels of the control group and of the individuals of one plant. However, the mean DNA adduct level obtained from workers of the second plant was significantly higher than that of the controls (p less than 0.001) and of the first plant (p less than 0.01), respectively. This difference can be attributed to differences in the design of technology and different levels of exposure at the 2 plants. The results of this study encourage further investigations of the use of peripheral white blood cells as marker cells and of 32P-postlabelling analysis for monitoring occupational exposure to mixtures of environmental carcinogenic pollutants.     

The effect of the genetic polymorphisms of CYP1A1,CYP2D6, GSTM1 and GSTP1 on aromatic DNA adduct levels in the population of healthy women

Aromatic DNA adduct levels and polymorphisms of two phase I enzymes - CYP1A1 and CYP2D6 and two phase II enzymes - GSTM1 and GSTP1 were analyzed in a group of 133 nonsmoking healthy women 35-45 years old and holding jobs not connected with the exposure to the combustion products of organic matter. They were office workers from the south and north-eastern parts of Poland. Blood samples were collected in winter and in summer. Aromatic DNA adduct levels were measured in all winter and summer samples. The frequencies of CYP1A1, CYP2D6, GSTM1 and GSTP1 polymorphisms in samples from the studied women did not show any differences when compared with other Caucasian populations and the Polish male population studied previously. The differences in the levels of DNA adducts among the carriers of different genotypes were statistically non-significant. Analysis of combined genotypes selected the groups of volunteers with the highest and the lowest DNA adduct levels. The highest levels of DNA adducts were observed in the carriers of GSTM1(null)/CYP1A1Ile/Val (8.00+/-13.00 adducts/10(8) nucleotides in summer samples) and GSTP1-AA/CYP1A1Ile/Val genotypes (7.00+/-4.32 in winter and 7.30+/-7. 27/10(8) nucleotides in summer). The lowest levels of DNA adducts (3. 00+/-2.30 in winter and 2.00+/-3.16/10(8) nucleotides in summer) were found in the carriers of the genotype GSTP1-AG+GG/CYP1A1Ile/Val. The levels of DNA adducts in these groups were determined by the polymorphisms of GSTM1 and GSTP1 phase II detoxifying enzymes.     

Reliability of bulky DNA adducts measurement by the nuclease P1 32P-post-labelling technique.

The aim was to assess the reliability of bulky DNA adducts measurement by means of the 32P-post-labelling assay. The research design consisted of an intramethod reliability study. Buffy coats from 41 subjects were used to obtain two aliquots of 1-5 microg DNA for each subject; bulky DNA adducts were measured using the nuclease P1 32P-post-labelling technique. The reliability of the measurement was assessed by means of the intraclass correlation coefficient (ICC), the distribution of the differences between the two measurements and the limits of agreement. The estimated ICC was 0.977, with a 95% confidence interval between 0.921 and 0.977. The limits of agreement were +/- 0.44 (DNA adducts per 10(8) nucleotides). Only three subjects had differences lying out of such limits. Bulky DNA adduct levels measured by the 32P-post-labelling technique showed good reliability. Only one measurement is needed to use DNA adducts as a biomarker of exposure and, possibly, cancer risk. Besides, as a validation analysis, 32P-post-labelling measurements can be repeated in only 20-30% of samples.     

32P-postlabelling analysis of DNA from human tissues.

DNA extracted from human lung, bladder, liver, pancreas, cervix and breast tissue samples taken at autopsy (37 sample sets) was analysed by the nuclease P1 enhancement modification of the 32P-postlabelling assay for levels of aromatic carcinogen DNA adducts. Results were combined with those from a previous study for statistical analysis of 56 sample sets (32 male+24 female). A strong trend was seen for increased adduct levels in the lung DNA of smokers and a weak association for the bladder DNA of smokers compared to non-smokers. Aromatic adducts were also detected in other tissues.     

A romatic DNA adduct levels in human peripheral blood lymphocytes and total white blood cells by 32P postlabelling: need for validation

Long lived lymphocytes tend to have higher 32P postlabelling measured levels of adducts than short lived granulocytes in environmental and life style associated i.e. smoking exposures. With the aim of investigating this issue for occupational exposure to PAH and contributing to further validation of some technical aspects of the 32P postlabelling assay, two Italian laboratories analysed PAH-DNA adducts from lymphocytes and total white blood cells WBC . Seventy seven blood samples from coke oven workers employed at a steel plant located in Taranto, Southern Italy, and 14 samples from control subjects were collected. At the University of Padua, DNA was purified from peripheral blood lymphocytes PBL . Two years later, at the University of Bari, white blood cells WBC were isolated from replicate blood samples stored at- 80 C and DNA purified by the same method. In both cases, the nuclease P1 modified postlabelling assay was used to determine aromatic DNA adduct levels. The mean adduct levels were 5.13 3.37 Padua and 2.48 1.27 Bari per 108 nucleotides. Both laboratories observed large inter individual variations of adduct levels ranging from 0.09 to 18.93 per 108 nucleotides. Both the correlation and the agreement of the two sets of data were assessed. Slight correlation r = 0.39; p 0.01 and a poor level of agreement were found, the intra class correlation coefficient being equal to 0.05. Better correlation coefficient r = 0.54, p 0.01 and intra class correlation coefficient r = 0.50 were observed comparing only the adduct levels determined on the diagonal zone DRZ . Our findings seem to confirm the same divergence reported in the literature on DNA adduct levels between lymphocytes and granulocytes.     

A romatic DNA adduct levels in human peripheral blood lymphocytes and total white blood cells by 32P postlabelling: need for validation

Long lived lymphocytes tend to have higher 32P postlabelling measured levels of adducts than short lived granulocytes in environmental and life style associated i.e. smoking exposures. With the aim of investigating this issue for occupational exposure to PAH and contributing to further validation of some technical aspects of the 32P postlabelling assay, two Italian laboratories analysed PAH-DNA adducts from lymphocytes and total white blood cells WBC. Seventy seven blood samples from coke oven workers employed at a steel plant located in Taranto, Southern Italy, and 14 samples from control subjects were collected. At the University of Padua, DNA was purified from peripheral blood lymphocytes PBL. Two years later, at the University of Bari, white blood cells WBC were isolated from replicate blood samples stored at- 80 C and DNA purified by the same method. In both cases, the nuclease P1 modified postlabelling assay was used to determine aromatic DNA adduct levels. The mean adduct levels were 5.13 3.37 Padua and 2.48 1.27 Bari per 108 nucleotides. Both laboratories observed large inter individual variations of adduct levels ranging from 0.09 to 18.93 per 108 nucleotides. Both the correlation and the agreement of the two sets of data were assessed. Slight correlation r = 0.39; p 0.01 and a poor level of agreement were found, the intra class correlation coefficient being equal to 0.05. Better correlation coefficient r = 0.54, p 0.01 and intra class correlation coefficient r = 0.50 were observed comparing only the adduct levels determined on the diagonal zone DRZ. Our findings seem to confirm the same divergence reported in the literature on DNA adduct levels between lymphocytes and granulocytes.     

Aromatic DNA adduct levels in coke oven workers: correlation with polymorphisms in genes GSTP1, GSTM1, GSTT1 and CYP1A1

The aim of this study was to use DNA adducts levels, detected by 32P-postlabelling, as a biomarker to assess human exposure to polycyclic aromatic hydrocarbons (PAHs) from a coke oven plant and explore the possible association between CYP1A1 MspI, GSTP1, GSTM1 and GSTT1 genotypes, and smoking status on bulky DNA adduct formation. A large amount of inter-individual variation in adduct level was observed among workers with the same job and the same smoking habits. No significant differences were observed in DNA adduct levels between the coke oven workers and control group. Smokers in the control group had significantly higher DNA adducts than the non-smokers in the same group (35.13+/-21.11 versus 11.18+/-8.00, per 10(8) nucleotides, P=0.003). In this group, the correlation between the level of DNA adducts and the cigarettes smoked was strongly significant (r=0.70, P<0.0005), but no correlation was found among the coke oven workers. Among non-smokers there was a significant difference between the control group and the coke oven workers (11.18+/-8.00 versus 24.62+/-15.20, per 10(8) nucleotides, P=0.03). These results suggests that tobacco smoke could behave as a confounding factor for evaluation of DNA adducts arising from occupational exposure. The levels of DNA adducts in smokers not occupationally exposed to PAHs is dependent on the polymorphisms CYP1A1 MspI in the 3' non-coding region (49.04+/-22.18 versus 25.85+/-15.87, per 10(8) nucleotides, P<0.05), but no effect was observed for the GST genotypes studied.     

Reliability of bulky DNA adducts measurement by the nuclease P1 32P-post-labelling technique

The aim was to assess the reliability of bulky DNA adducts measurement by means of the ³²P-post-labelling assay. The research design consisted of an intramethod reliability study. Buffy coats from 41 subjects were used to obtain two aliquots of 1–5 μg DNA for each subject; bulky DNA adducts were measured using the nuclease P1 ³²P-post-labelling technique. The reliability of the measurement was assessed by means of the intraclass correlation coefficient (ICC), the distribution of the differences between the two measurements and the limits of agreement. The estimated ICC was 0.977, with a 95% confidence interval between 0.921 and 0.977. The limits of agreement were ±0.44 (DNA adducts per 10⁸ nucleotides). Only three subjects had differences lying out of such limits. Bulky DNA adduct levels measured by the ³²P-post-labelling technique showed good reliability. Only one measurement is needed to use DNA adducts as a biomarker of exposure and, possibly, cancer risk. Besides, as a validation analysis, ³²P-post-labelling measurements can be repeated in only 20–30% of samples.     

32P-postlabeling of acrolein-deoxyguanosine adducts in DNA after nuclease P1 digestion.

In order to study the relationship between the level of acrolein-DNA adducts and their biological effects, sensitive methods are needed to quantitate DNA adducts. 32P-postlabeling is one such method that has been widely used and we have adapted the technique to detect acrolein-deoxyguanosine adducts. Adducts formed by the reaction of acrolein and deoxyguanosine-3'-monophosphate were isolated by HPLC. Based on their UV spectra and cochromatography with standards after dephosphorylation with acid phosphatase, these adducts were identified as the nucleotide equivalents of cyclic 1,N2-propanodeoxyguanosine adducts formed by acrolein that have been described by Chung et al. [15]. As nucleotides, the adducts were good substrates for polynucleotide kinase-mediated transfer of phosphate from ATP and were able to be detected by 32P-postlabeling. These adducts were resistant to the activity of nuclease P1 and dinucleoside monophosphates in the form d(G*pN) where G* is the acrolein-guanine adduct also resisted digestion by nuclease P1. Digestion of DNA by nuclease P1 and acid phosphatase resulted in the conversion of normal nucleotides to nucleosides and selective enrichment of the adducts as dinucleoside monophosphates. Using nuclease P1/acid phosphatase digestion, followed by 32P-postlabeling and TLC separation, levels of the two adducts in acrolein-treated DNA were found to be about 6185 and 19,222 nmol/mol.     

Endogenous and background DNA adducts by methylating and 2-hydroxyethylating agents

Detection of 7-alkylguanine DNA adducts is useful to assess human exposure to and the resulting DNA damage caused by simple alkylating agents. The background 7-methylguanine (7-MG) and 7-hydroxyethylguanine (7-HEG) adduct levels were determined in human and rat tissues, using thin-layer chromatography (TLC) combined with high pressure liquid chromatography (HPLC). In addition, these two adduct levels were also compared in various tissues between smokers and non-smokers. The results demonstrated that the background level of 7-alkylguanine adducts in WBC and lung tissues of non-smokers was 2.9 and 4.0 adducts/107 nucleotides, respectively. In smokers with lung cancers 7-MG adduct level in lung samples (6.3+/-1.9 adducts/107 nucleotides) and in bronchus samples (6.1+/-1.5 adducts/107 nucleotides) was significantly higher than that in WBC samples (3.3+/-0.9 adducts/107 nucleotides). 7-HEG adduct levels obtained from the same individuals were 0.8+/-0.3 in lung, 1.0+/-0.8 in bronchus and 0.6+/-0.2 adducts/107 nucleotides in WBC, respectively. Animal studies showed that background levels of 7-MG (2.1-2.5 adducts/107 nucleotides) in control rats were approximately 2-4-fold higher than 7-HEG levels (0.6-0.9 adducts/107 nucleotides). After a 3-day exposure to 300 ppm ethene, 7-HEG adducts accumulated to a similar extent in different tissues of rats, with the mean adduct level of 5.6-7.0 in liver, 7.4 in lymphocytes and 5.5 adducts/107 nucleotides in kidney.     

PAH-DNA adducts in environmentally exposed population in relation to metabolic and DNA repair gene polymorphisms

Epidemiologic studies indicate that prolonged exposure to particulate air pollution may be associated with increased risk of cardiovascular diseases and cancer in general population. These effects may be attributable to polycyclic aromatic hydrocarbons (PAHs) adsorbed to respirable air particles. It is expected that metabolic and DNA repair gene polymorphisms may modulate individual susceptibility to PAH exposure. This study investigates relationships between exposure to PAHs, polymorphisms of these genes and DNA adducts in group of occupationally exposed policemen (EXP, N = 53, males, aged 22–50 years) working outdoors in the downtown area of Prague and in matched “unexposed” controls (CON, N = 52). Personal exposure to eight carcinogenic PAHs (c-PAHs) was evaluated by personal samplers during working shift prior to collection of biological samples. Bulky-aromatic DNA adducts were analyzed in lymphocytes by ³²P-postlabeling assay. Polymorphisms of metabolizing (GSTM1, GSTP1, GSTT1, EPHX1, CYP1A1-MspI) and DNA repair (XRCC1, XPD) genes were determined by PCR-based RFLP assays. As potential modifiers and/or cofounders, urinary cotinine levels were analyzed by radioimmunoassay, plasma levels of vitamins A, C, E and folates by HPLC, cholesterol and triglycerides using commercial kits. During the sampling period ambient particulate air pollution was as follows: PM10 32–55 μg/m³, PM2.5 27–38 μg/m³, c-PAHs 18–22 ng/m³; personal exposure to c-PAHs: 9.7 ng/m³ versus 5.8 ng/m³ (P < 0.01) for EXP and CON groups, respectively. The total DNA adduct levels did not significantly differ between EXP and CON groups (0.92 ± 0.28 adducts/10⁸ nucleotides versus 0.82 ± 0.23 adducts/10⁸ nucleotides, P = 0.065), whereas the level of the B[a]P-“like” adduct was significantly higher in exposed group (0.122 ± 0.036 adducts/10⁸ nucleotides versus 0.099 ± 0.035 adducts/10⁸ nucleotides, P = 0.003). A significant difference in both the total (P < 0.05) and the B[a]P-“like” DNA adducts (P < 0.01) between smokers and nonsmokers within both groups was observed. A significant positive association between DNA adduct and cotinine levels (r = 0.368, P < 0.001) and negative association between DNA adduct and vitamin C levels (r = −0.290, P = 0.004) was found. The results of multivariate regression analysis showed smoking, vitamin C, polymorphisms of XPD repair gene in exon 23 and GSTM1 gene as significant predictors for total DNA adduct levels. Exposure to ambient air pollution, smoking, and polymorphisms of XPD repair gene in exon 6 were significant predictors for B[a]P-“like” DNA adduct. To sum up, this study suggests that polymorphisms of DNA repair genes involved in nucleotide excision repair may modify aromatic DNA adduct levels and may be useful biomarkers to identify individuals susceptible to DNA damage resulting from c-PAHs exposure.     

Effect of genetic polymorphism for metabolic enzymes on the relationship between smoking dose and DNA adducts in lymphocytes

The genetic polymorphism of metabolic enzymes on the relationship between smoking dose and DNA adduct levels in lymphocytes were evaluated in 51 smokers. The genetic polymorphisms of cytochrome P4501A1 (CYP1A1) and glutathione S-transferase M1 (GSTM1) were analysed by a PCR method. Lymphocyte DNA adducts were measured by two analytical versions of a 32P-postlabelling method; nuclease P1 digested method and butanol extracted method. Mean adduct levels obtained with the nuclease P1 method (1.21 +/- 0.74 per 108 nucleotides) were higher than those obtained with the butanol extracted method (0.82 +/- 0.47, p &lt; 0.01). There was a significant correlation between adduct levels by the nuclease P1 method and those by the butanol extracted method (r = 0.49, p &lt; 0.01). A significant correlation was not found between smoking dose and DNA adduct levels obtained using both methods in lymphocytes of all subjects. When subjects were divided into two groups by CYP1A1 genotypes, significant correlations between smoking indices, such as number of cigarettes per day years or tar intake per day years, and DNA adduct levels measured by the butanol extracted method was found in heterozygous or miner homozygous for CYP1A1 exon 7 polymorphism. We could not get a significant effect of GSTM1 on the relationship between smoking dose and DNA adducts.     

High-performance liquid chromatographic analysis of 32P-postlabeled DNA-aromatic carcinogen adducts

The technique of 32P postlabeling of DNA-carcinogen adducts is a useful and extremely sensitive method of detecting and quantitating DNA damage by carcinogens. We have adapted the 32P method to analysis by high-pressure liquid chromatography, making the procedure more rapid and convenient than when thin-layer chromatography is used. Following DNA isolation and hydrolysis, nucleotide-carcinogen adducts are enhanced relative to normal nucleotides by solvent extraction and then labeled with high-specific-activity [gamma-32P]ATP. The resulting 32P-postlabeled nucleotides are resolved by reverse-phase ion-pair HPLC. After as little as 3 h of exposure to carcinogens, DNA adducts can be demonstrated from 1 microgram or less of mouse hepatic DNA. Acetylated and nonacetylated adducts can be resolved from hepatic DNA of mice treated with 2-aminofluorene. Differences in DNA damage as measured by adduct formation were demonstrated between "rapid" and "slow" acetylator mouse strains. Rapid-acetylator C57BL/6J mice had three times the amount of hepatic DNA adducts as slow-acetylator A/J mice 3 h after a 60 mg/kg dose of 2-aminofluorene. 4-Aminobiphenyl and 2-naphthylamine each showed an adduct peak with retention time similar to that of the nonacetylated 2-aminofluorene adduct, while benzidine gave a major adduct that eluted somewhat earlier as would be expected for an acetylated adduct. The alkenylbenzenes, safrole and methyleugenol, also formed DNA adducts detectable by this method. DNA prepared from skin of mice painted with benzo[a]pyrene also contained carcinogen-DNA adducts detectable and resolvable by HPLC analysis following 32P postlabeling. The combination of HPLC with 32P postlabeling appears to be a useful technique for the rapid detection and quantitation of DNA damage caused by several classes of aromatic carcinogens.     

DNA adduct formation from the mutagenic air pollutant 3-nitrobenzanthrone

The environmental contaminant 3-nitrobenzanthrone (3-nitro-7H-benz[d, e]anthracen-7-one) was recently shown to be a very strong bacterial mutagen, suggesting a new class of mutagenic compounds present in airborne particulate matter and diesel exhaust. Using the 32P-postlabeling assay, we investigated the capacity for 3-nitrobenzanthrone to form DNA adducts in vitro. Calf thymus DNA was incubated with 3-nitrobenzanthrone and either xanthine oxidase, a mammalian nitroreductase or rat liver S9 or zinc. Under these conditions 3-nitrobenzanthrone formed a total of seven adducts detectable by 32P-postlabeling. Using enrichment by butanol extraction the highest level of DNA adduct formation was found with activation by zinc (RAL: 88.4+/-32 per 108 nucleotides) followed by activation with xanthine oxidase (RAL: 75.5+/-12) and activation by rat liver S9 (RAL: 48.6+/-8). Three of the seven adduct spots were detected in all activation systems, however different amounts of individual spots were obtained in the different in vitro systems. The adduct pattern observed for the enzymatic incubations consisted of three major spots and was essentially identical. Chemical reduction of 3-nitrobenzanthrone by zinc resulted in five adduct spots whose formation was found to be concentration dependent. All adducts of 3-nitrobenzanthrone observed in this study migrated primarily along a diagonal zone, typical for DNA adducts derived from extracts of airborne particulate matter. When butanol enrichment was compared with nuclease P1 enrichment one adduct was clearly sensitive to the 3'-monophosphatase activity of nuclease P1. Our results demonstrate that 3-nitrobenzanthrone binds covalently to DNA after metabolic activation, forming multiple DNA adducts in vitro all of which are reduction products. These adducts may contribute to the known genotoxicity and carcinogenicity of extracts from airborne particulates.     

Enhancement of pre-existing DNA adducts in rodents exposed to cigarette smoke

Exposure to tobacco smoke has been implicated in the increased incidence of cancer and cardiovascular diseases. This report describes various experimental studies in animals that were carried out to determine the ability of cigarette smoke to form DNA adducts and to define chromatographic nature of the major adducts. Tissues from rodents exposed to mainstream or sidestream cigarette smoke in nose-only and whole-body exposure systems, respectively, for different durations were analyzed for DNA adducts by 32P-postlabeling assay. The results showed essentially similar qualitative patterns in various respiratory (lung, trachea, larynx) and non-respiratory (heart, bladder) tissues of smoke-exposed rats. However, adduct pattern in the nasal mucosa was different. The mean total DNA adducts in various tissues expressed as per 1010 nucleotides exhibited the following order: heart (700)>lung (420)>trachea (170)>larynx (150)>bladder (50). Some qualitatively identical adducts were routinely detected in tissues from sham-treated rats but at greatly reduced levels (5- to 25-fold). The levels of lung DNA adducts increased with the duration of exposure up to 23 weeks and returned to control levels 19 weeks after the cessation of exposure. Species-related differences in adduct magnitude and patterns were observed among rats, mice and guinea pigs; mouse being the most sensitive to DNA damage and guinea pig the least sensitive. Whole-body exposure of rats to sidestream cigarette smoke also enhanced the pre-existing DNA adducts by several fold in different tissues. Selective chromatography, and extractability in butanol suggested lipophilic nature of smoke-associated DNA adducts, which were, however, recovered significantly better in nuclease P1 than butanol enrichment procedure. The major smoke-associated adducts were chromatographically different from any of the reference adducts of polycyclic aromatic hydrocarbons (PAHs) co-chromatographed with the smoke DNA samples. Because PAH-DNA adducts are recovered with equal efficiency by the two enrichment procedures, the above observations suggested that smoke-associated adducts are not related to typical PAHs, like benzo[a]pyrene. It is concluded that cigarette smoke increased the levels of pre-existing endogenous DNA adducts (the so-called I-compounds) in animal models and that these adducts are unrelated to those formed by typical PAHs.     

Interlaboratory comparison of the 32P-postlabelling assay for aromatic DNA adducts in white blood cells of iron foundry workers

Analysis by nuclease P1-enhanced 32P-postlabelling assay of DNA isolated from the white blood cells of 53 iron foundry workers was carried out independently in 3 laboratories, and the presence of aromatic DNA adducts was detected. The mean adduct levels in foundry workers varied from 9.2 +/- 23 (laboratory 3) and 12 +/- 10 (laboratory 2) to 26 +/- 43 (laboratory 1) and for the controls from 1.7 +/- 0.7 (laboratory 3) to 3.1 +/- 1.7 (laboratory 1) adducts per 10(8) nucleotides. No effect of smoking was observed in the present study. Each laboratory observed large interindividual variations of adduct levels. Good correlations were found between the results of the 32P-postlabelling assays carried out in the 3 laboratories; the correlation coefficients between laboratories 1 and 2, 1 and 3, and 2 and 3 were 0.61, 0.62, and 0.45, respectively, all being statistically highly significant (p less than 0.01). This interlaboratory comparison of the 32P-postlabelling method indicates the reproducibility of the method and its applicability in occupational exposure monitoring.     

In vitro genotoxicity of PAH mixtures and organic extract from urban air particles part I: acellular assay

Acellular assay of calf thymus DNA ± rat liver microsomal S9 fraction coupled with ³²P-postlabelling was used to study the genotoxic potential of organic compounds bound onto PM10 particles collected in three European cities—Prague (CZ), Kosice (SK) and Sofia (BG) during summer and winter periods. B[a]P alone induced DNA adduct levels ranging from 4.8 to 768 adducts/10⁸ nucleotides in the concentration dependent manner. However, a mixture of 8 c-PAHs with equimolar doses of B[a]P induced 3.7–757 adducts/10⁸ nucleotides, thus suggesting the inhibition of DNA adduct forming activity by interaction among various PAHs. Comparison of DNA adduct levels induced by various EOMs indicates higher variability among seasons than among localities. DNA adduct levels for Prague collection site varied from 19 to 166 adducts/10⁸ nucleotides, for Kosice from 22 to 85 and for Sofia from 6 to 144 adducts/10⁸ nucleotides. Bioactivation with S9 microsomal fraction caused 2- to 7-fold increase in DNA adduct levels compared to −S9 samples, suggesting a crucial role of indirectly acting genotoxic EOM components, such as PAHs. We have demonstrated for the first time a significant positive correlation between B[a]P content in EOMs and total DNA adduct levels detected in the EOM treated samples (R = 0.83; p = 0.04). These results suggest that B[a]P content in EOM is an important factor for the total genotoxic potential of EOM and/or B[a]P is a good indicator of the presence of other genotoxic compounds causing DNA adducts. Even stronger correlation between the content of genotoxic compounds in EOMs and total DNA adduct levels detected (R = 0.94; p = 0.005) was found when eight c-PAHs were taken into the consideration. Our findings support a hypothesis that a relatively limited number of EOM components is responsible for a major part of its genotoxicity detectable as DNA adducts by ³²P-postlabelling.     

The 32P-postlabeling assay for DNA adducts

32P-postlabeling analysis is an ultrasensitive method for the detection and quantitation of carcinogen-DNA adducts. It consists of four principal steps: (i) enzymatic digestion of DNA to nucleoside 3'-monophosphates; (ii) enrichment of the adduct fraction of the DNA digest; (iii) 5'-labeling of the adducts by transfer of 32P-orthophosphate from [gamma-32P]ATP mediated by polynucleotide kinase (PNK); (iv) chromatographic or electrophoretic separation of the labeled adducts or modified nucleotides and quantitation by measurement of their radioactive decay. The assay requires only microgram quantities of DNA and is capable of detecting adducts at frequencies as low as 1 in 10(10) nt, making it applicable to the detection of events resulting from environmental exposures, or experiments using physiological concentrations of agents. It has a wide range of applications in human, animal and in vitro studies, and can be used for a wide variety of classes of compound and for the detection of adducts formed by complex mixtures. This protocol can be completed in 3 d.